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Microglia positively affect neural progenitor cell physiology through the release of inflammatory mediators or trophic factors. We demonstrated previously that reactive microglia foster K(ATP) -channel expression and that blocking this channel using glibenclamide administration enhances striatal neurogenesis after stroke. In this study,we investigated whether the microglial K(ATP) -channel directly influences the activation of neural precursor cells (NPCs) from the subventricular zone using transgenic Csf1r-GFP mice. In vitro exposure of NPCs to lipopolysaccharide and interferon-gamma resulted in a significant decrease in precursor cell number. The complete removal of microglia from the culture or exposure to enriched microglia culture also decreased the precursor cell number. The addition of glibenclamide rescued the negative effects of enriched microglia on neurosphere formation and promoted a 20% improvement in precursor cell number. Similar results were found using microglial-conditioned media from isolated microglia. Using primary mixed glial and pure microglial cultures,glibenclamide specifically targeted reactive microglia to restore neurogenesis and increased the microglial production of the chemokine monocyte chemoattractant protein-1 (MCP-1). These findings provide the first direct evidence that the microglial K(ATP) -channel is a regulator of the proliferation of NPCs under inflammatory conditions. View Publication

Human pluripotent stem cells (hPSCs) constitute a promising resource for use in cell-based therapies and a valuable in vitro model for studying early human development and disease. Despite significant advancements in the derivation of specific fates from hPSCs,the generation of skeletal muscle remains challenging and is mostly dependent on transgene expression. Here,we describe a method based on the use of a small-molecule GSK3?? inhibitor to derive skeletal muscle from several hPSC lines. We show that early GSK3?? inhibition is sufficient to create the conditions necessary for highly effective derivation of muscle cells. Moreover,we developed a strategy for stringent fluorescence-activated cell sorting-based purification of emerging PAX3+/PAX7+ muscle precursors that are able to differentiate in postsort cultures into mature myocytes. This transgene-free,efficient protocol provides an essential tool for producing myogenic cells for in vivo preclinical studies,in vitro screenings,and disease modeling. ?? 2013 The Authors. View Publication

Histone deacetylases (HDACs) play important roles in transcriptional regulation and pathogenesis of cancer. Thus,HDAC inhibitors are candidate drugs for differentiation therapy of cancer. Here,we show that the well-tolerated antiepileptic drug valproic acid is a powerful HDAC inhibitor. Valproic acid relieves HDAC-dependent transcriptional repression and causes hyperacetylation of histones in cultured cells and in vivo. Valproic acid inhibits HDAC activity in vitro,most probably by binding to the catalytic center of HDACs. Most importantly,valproic acid induces differentiation of carcinoma cells,transformed hematopoietic progenitor cells and leukemic blasts from acute myeloid leukemia patients. More over,tumor growth and metastasis formation are significantly reduced in animal experiments. Therefore,valproic acid might serve as an effective drug for cancer therapy. View Publication

BackgroundMonocytes have been confirmed to increase in persistently food-allergic children. A phenomenon of innate immune memory,called trained immunity,has also been observed in monocytes from allergic children. However,the underlying mechanism remains poorly understood.MethodsWe enrolled a cohort of HDM-allergic children alongside age-matched healthy controls and established an HDM-sensitized allergic mouse model. Flow cytometric analyses were conducted to quantify monocyte frequencies in clinical cohorts and experimental animals. We performed integrated transcriptomic profiling via RNA-seq combined with chromatin occupancy analysis using CUT&Tag technology in parallel human and murine samples to elucidate the molecular mechanisms.ResultsIn our study,we demonstrated a reduced H3K27me3 methylation level accompanied by an increased proportion and a proinflammatory transcriptional memory in monocytes from house dust mite (HDM)-allergic human subjects. The same transcriptional and epigenetic phenotype was also confirmed in HDM-sensitized mice. Finally,the administration of GSK-J4,which upregulates H3K27me3 level in murine monocytes,attenuated the inflammatory response in vitro and in vivo.ConclusionsOur study confirms that H3K27me3 methylation modulates the trained immunity in monocytes and regulates HDM-allergic diseases through an inflammatory-dependent mechanism. View Publication

The demonstration that the small synthetic molecule reversine [2-(4-morpholinoanilino)-N6-cyclohexyladenine] promotes the dedifferentiation of committed cells into multipotent progenitor-type cells has raised hopes on the exploitation of this small chemical tool for the generation of stem cells. Here,we show that reversine causes a failure in cytokinesis and induces polyploidization. These effects of reversine are due to the inhibition of Aurora A and B,two related kinases that are implicated in several aspects of mitosis and that are frequently amplified and overexpressed in human tumors. Reversine inhibits the phosphorylation of histone H3,a direct downstream target of Aurora kinases. Similarly to the Aurora kinase inhibitor VX-680,which has recently entered phase II clinical trials for cancer treatment,reversine inhibited colony formation of leukemic cells from patients with acute myeloid leukemia but was significantly less toxic than VX-680 on cells from healthy donors. The crystal structure of the reversine-Aurora B kinase complex shows that reversine is a novel class of ATP-competitive Aurora kinase inhibitors. Thus,although our studies raise serious doubts on the application of reversine in regenerative medicine,they support the paradigm that reversine might be a useful agent in cancer chemotherapy. View Publication

Induced pluripotent stem cells (iPSCs) hold promise for the treatment of motoneuron diseases because of their distinct features including pluripotency,self-derivation and potential ability to differentiate into motoneurons. However,it is still unknown whether human iPSC-derived motoneurons can functionally innervate target muscles in vivo,which is the definitive sign of successful cell therapy for motoneuron diseases. In the present study,we demonstrated that human iPSCs derived from mesenchymal cells of the umbilical cord possessed a high yield in neural differentiation. Using a chemically-defined in vitro system,human iPSCs efficiently differentiated into motoneurons which displayed typical morphology,expressed specific molecules,and generated repetitive trains of action potentials. When transplanted into the injured musculocutaneous nerve of rats,they survived robustly,extended axons along the nerve,and formed functional connections with the target muscle (biceps brachii),thereby protecting the muscle from atrophy. Our study provides evidence for the first time that human iPSC-derived motoneurons are truly functional not only in vitro but also in vivo,and they have potential for stem cell-based therapies for motoneuron diseases. textcopyright 2013 Elsevier B.V. View Publication

Glioblastoma multiforme (GBM) is the most common primary malignant adult brain tumor and is associated with poor survival. Recently,stem-like cell populations have been identified in numerous malignancies including GBM. To identify genes whose expression is changed with differentiation,we compared transcript profiles from a GBM oncosphere line before and after differentiation. Bioinformatic analysis of the gene expression profiles identified podocalyxin-like protein (PODXL),a protein highly expressed in human embryonic stem cells,as a potential marker of undifferentiated GBM stem-like cells. The loss of PODXL expression upon differentiation of GBM stem-like cell lines was confirmed by quantitative real-time PCR and flow cytometry. Analytical flow cytometry of numerous GBM oncosphere lines demonstrated PODXL expression in all lines examined. Knockdown studies and flow cytometric cell sorting experiments demonstrated that PODXL is involved in GBM stem-like cell proliferation and oncosphere formation. Compared to PODXL-negative cells,PODXL-positive cells had increased expression of the progenitor/stem cell markers Musashi1,SOX2,and BMI1. Finally,PODXL expression directly correlated with increasing glioma grade and was a marker for poor outcome in patients with GBM. In summary,we have demonstrated that PODXL is expressed in GBM stem-like cells and is involved in cell proliferation and oncosphere formation. Moreover,high PODXL expression correlates with increasing glioma grade and decreased overall survival in patients with GBM. View Publication

Genetic variations in the Trpm8 gene that encodes the cold receptor TRPM8 have been linked to protection against polygenic migraine,a disabling condition primarily affecting women. Noteworthy,TRPM8 has been recently found in brain areas related to emotional processing,suggesting an unrecognized role in migraine comorbidities. Here,we use mouse behavioural models to investigate the role of Trpm8 in migraine-related phenotypes. Subsequently,we test the efficacy of rapamycin,a clinically relevant TRPM8 agonist,in these behavioural traits and in human induced pluripotent stem cell (iPSC)-derived sensory neurons. We report that Trpm8 null mice exhibited impulsive and depressive-like behaviours,while also showing frequent pain-like facial expressions detected by an artificial intelligence algorithm. In a nitroglycerin-induced migraine model,Trpm8 knockout mice of both sexes developed anxiety and mechanical hypersensitivity,whereas wild-type females also displayed depressive-like phenotype and hypernociception. Notably,rapamycin alleviated pain-related behaviour through both TRPM8-dependent and independent mechanisms but lacked antidepressant activity,consistent with a peripheral action. The macrolide ionotropically activated TRPM8 signalling in human sensory neurons,emerging as a new candidate for intervention. Together,our findings underscore the potential of TRPM8 for migraine relief and its involvement in affective comorbidities,emphasizing the importance of addressing emotional symptoms to improve clinical outcomes for migraine sufferers,especially in females. The online version contains supplementary material available at 10.1186/s10194-025-02082-4. View Publication